Here's an idea. Instead of creating each rectangle with `(x, y, width, height)`

, instantiate them with `(x1, y1, x2, y2)`

, or at least have it interpret these values given the width and height.

That way, you can check which rectangles have a similar `x`

or `y`

value and make sure the corresponding rectangle has the same secondary value.

Example:

The rectangles you have given have the following values:

- Square 1: [0, 0, 8, 3]
- Square 3: [0, 4, 8, 6]
- Square 4: [9, 0, 10, 4]

First, we compare `Square 1`

to `Square 3`

(no collision):

- Compare the x values
- [0, 8] to [0, 8] These are exactly the same, so there's no crossover.

- Compare the y values
- [0, 4] to [3, 6] None of these numbers are similar, so they're not a factor

Next, we compare `Square 3`

to `Square 4`

(collision):

- Compare the x values
- [0, 8] to [9, 10] None of these numbers are similar, so they're not a factor

- Compare the y values
- [4, 6] to [0, 4] The rectangles have the number 4 in common, but 0 != 6, therefore, there is a collision

By know we know that a collision will occur, so the method will end, but lets evaluate `Square 1`

and `Square 4`

for some extra clarity.

- Compare the x values
- [0, 8] to [9, 10] None of these numbers are similar, so they're not a factor

- Compare the y values
- [0, 3] to [0, 4] The rectangles have the number 0 in common, but 3 != 4, therefore, there is a collision

Let me know if you need any extra details :)